空气动力学学报
空氣動力學學報
공기동역학학보
ACTA AERODYNAMICA SINICA
2015年
1期
107-112
,共6页
倾转旋翼机%气动干扰%操纵特性%风洞试验%短舱
傾轉鏇翼機%氣動榦擾%操縱特性%風洞試驗%短艙
경전선익궤%기동간우%조종특성%풍동시험%단창
tilt rotor%aerodynamic interaction%control characteristics%wind-tunnel tests%nacelle
由于倾转旋翼机飞行模式多,各部件气动干扰复杂且操纵面冗余,特别是倾转过渡模式,短舱带动旋翼系统倾转,结构布局发生改变,从理论上确定气动与操纵特性难度大。为了研究倾转旋翼机的气动与操纵特性,对某小型无人倾转旋翼机展开全尺寸、全模式吹风试验,其中不带动力试验主要用于研究倾转旋翼机在不同迎角、短舱倾角、前飞速度等飞行状态下的气动特性;带动力试验主要用于研究倾转旋翼机不同飞行模式带机翼与不带机翼时,旋翼/机翼/襟副翼相互干扰作用,以及总距、副翼、升降舵的操纵功效。根据试验数据推导出小型无人倾转旋翼机全包线飞行的操纵特性方法,对进一步完善倾转旋翼机设计以及试飞试验的成功提供了参考。
由于傾轉鏇翼機飛行模式多,各部件氣動榦擾複雜且操縱麵冗餘,特彆是傾轉過渡模式,短艙帶動鏇翼繫統傾轉,結構佈跼髮生改變,從理論上確定氣動與操縱特性難度大。為瞭研究傾轉鏇翼機的氣動與操縱特性,對某小型無人傾轉鏇翼機展開全呎吋、全模式吹風試驗,其中不帶動力試驗主要用于研究傾轉鏇翼機在不同迎角、短艙傾角、前飛速度等飛行狀態下的氣動特性;帶動力試驗主要用于研究傾轉鏇翼機不同飛行模式帶機翼與不帶機翼時,鏇翼/機翼/襟副翼相互榦擾作用,以及總距、副翼、升降舵的操縱功效。根據試驗數據推導齣小型無人傾轉鏇翼機全包線飛行的操縱特性方法,對進一步完善傾轉鏇翼機設計以及試飛試驗的成功提供瞭參攷。
유우경전선익궤비행모식다,각부건기동간우복잡차조종면용여,특별시경전과도모식,단창대동선익계통경전,결구포국발생개변,종이론상학정기동여조종특성난도대。위료연구경전선익궤적기동여조종특성,대모소형무인경전선익궤전개전척촌、전모식취풍시험,기중불대동력시험주요용우연구경전선익궤재불동영각、단창경각、전비속도등비행상태하적기동특성;대동력시험주요용우연구경전선익궤불동비행모식대궤익여불대궤익시,선익/궤익/금부익상호간우작용,이급총거、부익、승강타적조종공효。근거시험수거추도출소형무인경전선익궤전포선비행적조종특성방법,대진일보완선경전선익궤설계이급시비시험적성공제공료삼고。
It is very difficult to determine the aerodynamics and control characteristics theo-retically for tiltrotor aircraft because of multi-flight modes,complexity of aerodynamic interac-tions,and redundancy of control surfaces.Especially for the tilting flight mode,the layout of the aircraft is transformed between the helicopter mode and the fixed-wing airplane mode with the na-celle driven rotor system tilting.In order to investigate the aerodynamics and control characteris-tics,the full-span and full-envelop flight modes of a small unmanned tilt rotor are tested in wind-tunnel prior to flight.The un-powered test is mainly determining the flight characteristics with different attack angles,nacelle angles and forward speeds.The powered test is focused on the aerodynamic interactions among rotor,wing and flaperon wing,with and without wings,as well as the efficacy manipulation of the collective aileron and elevator.According to the experimental data,the full-envelop flight control characteristics for the tiltrotor is deduced,improves aircraft designing,and provides a priori knowledge for successful flight tests.
